World J Gastroenterol 2015 January 14; 21(2): 629-636 ISSN 1007-9327 (print) ISSN 2219-2840 (online)

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© 2015 Baishideng Publishing Group Inc. All rights reserved.

ORIGINAL ?????????????? ARTICLE Observational Study

Prevalence of Helicobacter pylori infection and atrophic gastritis in patients with dyspeptic symptoms in Myanmar Thein Myint, Seiji Shiota, Ratha-korn Vilaichone, New Ni, Than Than Aye, Miyuki Matsuda, Trang Thi Huyen Tran, Tomohisa Uchida, Varocha Mahachai, Yoshio Yamaoka Thein Myint, Department of Gastroenterology, Yangon General Hospital and University of Medicine (1), Yangon 11131, Myanmar Seiji Shiota, Miyuki Matsuda, Trang Thi Huyen Tran, Yoshio Yamaoka, Department of Environmental and Preventive Medicine, Oita University Faculty of Medicine, Yufu-City, Oita 879-5593, Japan Ratha-korn Vilaichone, Gastroenterology Unit, Department of Medicine, Thammasat University Hospital, Pathumthani 12120, Thailand New Ni, Department of Gastroenterology, Mandalay General Hospital and University of Medicine (Mandalay), Mandalay 4802, Myanmar Than Than Aye, Department of Gastroenterology, Thingangyun Sanpya General Hospital and University of Medicine (2), Thingangyun 11071, Myanmar Tomohisa Uchida, Department of Molecular Pathology, Oita University Faculty of Medicine, Yufu-City, Oita 879-5593, Japan Varocha Mahachai, GI and Liver Center, Bangkok Medical Center, Bangkok 10310, Thailand Yoshio Yamaoka, Department of Medicine-Gastroenterology, Michael E. DeBakey Veterans Affairs Medical Center and Baylor College of Medicine, Houston, TX 77030, United States Author contributions: Myint T, Vilaichone RK, Yamaoka Y and Mahachai V designed the study and carried out most of the study; Myint T, Vilaichone RK, Ni N, Aye TT, Mahachai V, Uchida T and Yamaoka Y provided the collection of data; Matsuda M and Tran TTH performed experiment and interpreted data; Vilaichone RK, Yamaoka Y and Shiota S wrote the manuscript, analyzed and interpreted data; Yamaoka Y approved the version to be published. Supported by Grants from the National Institutes of Health, No. DK62813 (To Yamaoka Y); Grants-in-Aid for Scientific Research from the Ministry of Education, Culture, Sports, Science and Technology of Japan, No. 22390085, No. 22659087, No. 24406015, No. 24659200 (To Yamaoka Y) and No. 23790798 (To Shiota S); Japan Society for the Promotion of Science Institutional Program for Young Researcher Overseas Visits and the Strategic Funds for the Promotion of Science and Technology from Japan Science and Technology Agency. Open-Access: This article is an open-access article which was selected by an in-house editor and fully peer-reviewed by exter-

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nal reviewers. It is distributed in accordance with the Creative Commons Attribution Non Commercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited and the use is non-commercial. See: http://creativecommons.org/licenses/by-nc/4.0/ Correspondence to: Yoshio Yamaoka, MD, PhD, Department of Environmental and Preventive Medicine, Oita University Faculty of Medicine, 1-1 Idaigaoka, Hasama-machi, Yufu-City, Oita 879-5593, Japan. [email protected] Telephone: +81-97-5865740 Fax: +81-97-5865749 Received: March 21, 2014 Peer-review started: March 23, 2014 First decision: April 2, 2014 Revised: May 12, 2014 Accepted: July 22, 2014 Article in press: July 22, 2014 Published online: January 14, 2015

Abstract AIM: To survey the detailed analyses for Helicobacter pylori (H. pylori ) infection and gastric mucosal status in Myanmar.

METHODS: A total of 252 volunteers with dyspeptic symptoms (155 female and 97 male; mean age of 43.6 ± 14.2 years) was participated in Yangon and Mandalay. The status of H. pylori infection was determined based on 5 different tests including rapid urease test, culture, histology, immunohistochemistry and serology. Histological scores were evaluated according to the update Sydney system and the Operative Link for Gastritis Assessment system. Pepsinogen (PG) Ⅰ and PG Ⅱ were measured using enzyme-linked immunosorbent assays. RESULTS: The overall prevalence of H. pylori infection

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rate[4]. In fact, H. pylori strains isolated in India are Western-type strains, on the other hand, those of Chinese are East-Asian-type strains [5,6]. In Thailand, H. pylori strains isolated from Chinese-Thai showed East-Asiantype whereas those from Thai-Thai showed Western-type strains[7]. Myanmar is located in Southeast Asia bordered by China, Thailand, India, Laos and Bangladesh. The agestandardized incidence rate (ASR) of gastric cancer in Myanmar was reported to be 11.2/100000 per year [8] (http://globocan.iarc.fr/), which is higher than that of India and Thailand, and lower than that of China (6.1, 3.1 and 22.7/100000, respectively). To our knowledge, there is no previous study published focusing on the H. pylori infection in Myanmar. To understand the reason for higher incidence of gastric cancer in Myanmar than India or Thailand, it is important to elucidate of H. pylori infection rate in Myanmar. In addition, phylogeographic analyses with genomic difference of H. pylori strains can assume the migration of human populations[9]. Therefore, analyses of H. pylori strains isolated from Myanmar might be contributed to the exploration of human migration pattern in south Asian countries. Furthermore, the gastric cancer risk can be assessed by the status of gastric atrophy[10]. Not only endoscopic and histological examination but also the measurements of serum pepsinogen (PG) Ⅰ and PG Ⅰ/Ⅱ levels can be available to examine the status of gastric mucosal atrophy. A meta-analysis showed that a PG Ⅰ level ≤ 70 ng/mL and a PG Ⅰ/Ⅱ ratio ≤ 3 had a sensitivity of 57%, specificity of 80%, positive predictive value of 15%, and negative predictive value of 83% in screening for atrophic gastritis to detect gastric cancer[11]. However, the proper cut-off value can be various according to the geographic difference. In this study, we first disclosed the infection rate of H. pylori in Myanmar by multiple tests including rapid urease test, culture, histology, immunohistochemistry and serology. In addition, we examined the status of gastric mucosa based on histology and serology.

was 48.0%. There was no relationship between age and infection rate. Even in young group (less than 29 years old), the H. pylori infection rate was relatively high (41.9%). The prevalence of H. pylori infection was significantly higher in Yangon than that of Mandalay. H. pylori infection was significantly associated with the presence of gastric mucosal atrophy. All 7 subjects with peptic ulcer were infected with H. pylori . Although H. pylori -positive subjects showed stronger gastritis than H. pylori -negative subjects, most cases had mild gastritis. CONCLUSION: We revealed the prevalence of H. pylori infection in patients with dyspeptic symptoms in Myanmar. The H. pylori infection was a risk factor for peptic ulcer and stronger gastritis.

Key words: Helicobacter pylori ; Myanmar; Pepsinogen; Atrophy © The Author(s) 2015. Published by Baishideng Publishing Group Inc. All rights reserved.

Core tip: The prevalence of Helicobacter pylori (H. pylori ) infection in Myanmar has not been elucidated. Our study revealed that the overall prevalence of H. pylori infection was 48.0% in patients with dyspeptic symptoms. Even among young group (less than 29 years old), the H. pylori infection rate was relatively high (41.9%). Nevertheless, most cases showed mild gastritis, which suggests that the moderate of the incidence of gastric cancer might be attributed to the mild atrophy. All 7 subjects with peptic ulcer were infected with H. pylori .

Myint T, Shiota S, Vilaichone RK, Ni N, Aye TT, Matsuda M, Tran TTH, Uchida T, Mahachai V, Yamaoka Y. Prevalence of Helicobacter pylori infection and atrophic gastritis in patients with dyspeptic symptoms in Myanmar. World J Gastroenterol 2015; 21(2): 629-636 Available from: URL: http://www. wjgnet.com/1007-9327/full/v21/i2/629.htm DOI: http://dx.doi. org/10.3748/wjg.v21.i2.629

MATERIALS AND METHODS

INTRODUCTION

Study population We consecutively recruited a total of 252 volunteers with dyspeptic symptoms (155 female and 97 male; mean age of 43.6 ± 14.2 years, range 13 to 85 years old) in our prospective study in 2012. The survey took place in the largest city, Yangon (n = 182) and the second largest city, Mandalay (n = 70). Subjects with a history of partial gastric resection were excluded. Total of 252 subjects were consisted of 43 at ≤ 29 years old, 65 at 30-39 years old, 56 at 40-49 years old, 55 at 50-59 years old, and 33 at ≥ 60 years old. Peripheral blood was collected from each subject after overnight fasting. Samples were collected into serum tubes and centrifuged within 1 h after collection. Separated sera were used for serological identification of H. pylori and measurement of the PG

Helicobacter pylori (H. pylori) infection is strongly related with the development of gastroduodenal diseases including peptic ulcer and functional dyspepsia [1]. Although H. pylori infection is also a major factor to development of gastric cancer[2], the difference of H. pylori infection rate is not enough to explain the difference of the incidence of gastric cancer in the world. For example, despite the high prevalence of H. pylori infection in India, the incidence of gastric cancer in India is much lower than in other countries, the so-called Asian enigmas[3]. In addition to host and environmental factors, as a part, the difference of the incidence of gastric cancer irrespective of H. pylori infection rate can be explained by the difference of virulence factors of H. pylori rather than H. pylori infection

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levels. All reagents for H. pylori cultures (e.g., disposable forceps, transport mediums) were brought from Thailand and Japan. We performed endoscopy on the same day with blood collection. Written informed consent was obtained from all participants, and the protocol was approved by the Ethics and Research Committee of University of Medicine (1), Myanmar, that of Mandalay General Hospital, that of Thammasat University Hospital as well as that of Oita University Faculty of Medicine, Japan. During each endoscopy session, 4 gastric biopsy specimens were obtained (three from the lesser curvature of the antrum approximately three cm from the pyloric ring and one from the greater curvature of the corpus). Three specimens from the antrum were used for H. pylori culture, rapid urease test and histological examination. One specimen from the corpus was used for histological examination. Peptic ulcers and gastric cancer were identified by endoscopy. Gastritis was defined as H. pylori gastritis in the absence of peptic ulcer or gastric malignancy.

classified as H. pylori-positive according to the manufacturer’s instructions; those with PG Ⅰ levels ≤ 70 ng/ mL and a PG Ⅰ/Ⅱ ratio ≤ 3.0 were classified as PGpositive according to the Japanese guidelines[13]. Immunohistochemistry Immunohistochemistry was performed as described previously[14]. Briefly, after antigen retrieval and inactivation of endogenous peroxidase activity, tissue sections were incubated with α-H. pylori antibody (DAKO, Denmark) overnight at 4 ℃. After washing, the sections were incubated with biotinylated goat antirabbit IgG (Nichirei Co., Japan), followed by incubation with a solution of avidin-conjugated horseradish peroxidase (Vectastain Elite ABC kit; Vector Laboratories Inc., Burlingame, CA, United States). Peroxidase activity was detected using H2O2/diaminobenzidine substrate solution. For all cases, we performed Giemsa staining using a serial section to identify the presence of H. pylori. If the H. pylori identified by Giemsa staining was found to be positively immunostained, we judged the case as positive.

Status of H. pylori infection To maximize the diagnostic accuracy, 5 different methods were combined for the diagnosis of H. pylori infection including rapid urease test, culture, histology, immunohistochemistry, and serology. Subjects were considered to be H. pylori-negative when all 5 tests were negative, whereas H. pylori-positive status required at least one positive test result.

Staging for gastritis The degree of gastritis was classified using 4 grades: 0, normal; 1, mild; 2, moderate; and 3, marked according to the updated Sydney system[12]; samples of grade 1 or more were considered atrophy-positive according to a previous report[15]. In addition, on the basis of the topographic locations (antrum and corpus), the gastritis stage (the severity and topography of atrophy) was assessed according to the Operative Link on Gastritis Assessment (OLGA) system[16,17].

H. pylori culture One biopsy specimen from the antrum was homogenized in saline and inoculated onto Mueller Hinton Ⅱ Agar medium (Becton Dickinson, NJ, United States) supplemented with 7% horse blood without antibiotics. The plates were incubated for up to 10 days at 37 ℃ under microaerophilic conditions (10% O 2 , 5% CO 2 and 85% N2). H. pylori was identified on the basis of colony morphology, Gram staining and positive reactions for oxidase, catalase, and urease. Isolated strains were stored at -80 ℃ in Brucella Broth (Difco, NJ, United States) containing 10% dimethylsulfoxide and 10% horse serum. For histology, all biopsy materials were fixed in 10% buffered formalin for 24 h, and then embedded in paraffin. Serial sections were stained with hematoxylin and eosin and with May-Giemsa stain. The degree of bacterial load was classified into four grades: 0, “normal”; 1, “mild”; 2, “moderate”; and 3, “marked” according to the updated Sydney system[12]. More than or equal of 1 grade of bacterial load was defined as H. pylori positive.

Statistical analysis Data were analyzed using SPSS, version 19 (SPSS Inc., Chicago, IL, United States). Statistical evaluation was performed by the χ 2 test to compare discrete variables and the Mann-Whitney U-test and the t-test to compare continuous variables. Differences in prevalence in each group were analyzed using the Mantel-Haenszel method. Spearman rank coefficients (r) were determined to evaluate the association between the severity of mucosal atrophy and PGs. Multiple backward stepwise logistic regression analyses were performed to examine the associations of atrophy with the main predictor variables, such as age, sex, H. pylori infection. For each variable, the OR and 95%CI were calculated. A twotailed P value < 0.05 was considered significant. Receiver operating curves (ROC) were used to calculate the best cut-off values for discriminating atrophic gastritis by PG Ⅰ/Ⅱ.

Serological analysis of H. pylori infection and PG Anti-H. pylori IgG levels were quantified using an enzyme-linked immunosorbent assay (ELISA) kit (Eiken Co., Ltd., Tokyo, Japan) according to the manufacturer’ s instructions. Serum PG Ⅰ and PG Ⅱ levels were measured using Pepsinogen ELISA (Eiken, Co. Ltd.) according to the manufacturer’s instructions. Individuals with a serum H. pylori antibody titer ≥ 10 U/mL were

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RESULTS Prevalence of H. pylori infection in Myanmar Table 1 showed H. pylori positive rate in each test. The results of histology and immunohistochemistry were identical. Among 5 tests, serological test showed higher

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27.3% (3/11) at ≥ 60 years old. The overall prevalence of H. pylori infection in Yangon was significantly higher than that of Mandalay even when the age was adjusted by the Mantel-Haenszel method (52.2% vs 37.1%, P = 0.04).

Table 1 Prevalence of Helicobacter pylori infection in each diagnostic test n (%) Age (yr) n Serum RUT Culture Histology IHC Final

-29

30-39

40-49

50-59

60-

Total

43 16 (37.2) 9 (20.9) 9 (20.9) 11 (25.6) 11 (25.6) 18 (41.9)

65 27 (41.5) 33 (50.8) 26 (40.0) 29 (44.6) 29 (44.6) 37 (56.9)

56 21 (37.5) 17 (30.4) 18 (32.1) 20 (35.7) 20 (35.7) 26 (46.4)

55 21 (38.2) 21 (38.2) 18 (32.7) 23 (41.8) 23 (41.8) 28 (50.9)

33 8 (24.2) 6 (18.2) 3 (9.1) 7 (21.2) 7 (21.2) 12 (36.4)

252 93 (36.9) 86 (34.1) 74 (29.4) 90 (35.7) 90 (35.7) 121 (48.0)

Endoscopic findings and H. pylori infection rate In endoscopic diagnosis, gastritis was most common findings (233/252, 92.4%). Gastric and duodenal ulcer was found at 3 cases (1.1%) and 4 cases (1.5%), respectively. Gastric cancer was found in 3 cases (1.1%). Other diagnosis including submucosal tumor was found in 9 subjects. Among 233 subjects with gastritis, 109 (46.8%) were infected with H. pylori. On the other hand, all 7 subjects with peptic ulcer were infected with H. pylori, which was significantly higher than that of gastritis (100 vs 46.8%, P = 0.006). Among 3 subjects with gastric cancer, 2 subjects were infected with H. pylori.

Positive rate (%)

RUT: Rapid urease test; IHC: Immunohistochemistry.

100 90 80 70 60 50 40 30 20 10 0

-29

30-39

40-49

50-59

Status of gastric mucosa According to the updated Sydney system, 114 subjects (45.3%) were grade 0 for atrophy in the antrum, 131 subjects (51.9%) had grade 1 and 7 subjects (2.7%) had grade 2. None had grade 3. In the corpus, 220 cases (87.3%) were grade 0 for atrophy in the corpus and 27 and 5 cases (10.7% and 1.9%, respectively) were of grades 1, and 2 for atrophy, respectively. Therefore, 138 subjects (54.7%) had gastric mucosal atrophy in the antrum, and 32 (12.6%) subjects had gastric mucosal atrophy in the corpus when samples of grade 1 or more were considered atrophy-positive. The OLGA system was also used to assess the staging of gastritis; 109 (43.2%) was stages 0 and stage Ⅰ was found in 52.3% (132/252). Stage Ⅱ was found in 3.9% (10/252). Stage Ⅲ was found only 1 (0.3%) subject and Stage Ⅳ were not found. The differences of histological scores according to the status of H. pylori infection were shown in Table 2. The scores for activity, inflammation, and atrophy both in antrum and corpus were significantly higher in H. pylori-positive subjects than negative subjects (all P < 0.0001). The score for intestinal metaplasia in the antrum was significantly higher in H. pylori-positive subjects than negative subjects (P = 0.02). Intestinal metaplasia in the antrum was found in 11.5% (14/121) in H. pylori-positive and 3.8% (5/131) in -negative subjects; therefore, the prevalence of intestinal metaplasia in the antrum was significantly higher in H. pylori-positive subjects than that of negative subjects (P = 0.01). OLGA score was also significantly higher in H. pylori-positive subjects than negative subjects (0.84 ± 0.56 vs 0.40 ± 0.52, P < 0.0001). To evaluate predictive factors for the presence of atrophy, we performed a multivariate analysis. H. pylori infection was an independent risk factor for the presence of atrophy even after adjustment by age and gender (P < 0.0001, OR = 5.27, 95%CI: 3.02-9.18).

60-

Age (yr)

Figure 1 Prevalence of Helicobacter pylori infection by age group in Myanmar. Helicobacter pylori (H. pylori) infection was examined by 5 different methods including rapid urease test, culture, histology, immunohistochemistry, and serology. Subjects were considered to be H. pylori-negative when all 5 tests were negative, whereas H. pylori-positive status required at least one positive test result. Each bar shows the percentage of positive cases and the standard error.

positive rate compared with culture, although it did not reach a statistical significance (P = 0.07). When subjects were considered to be H. pylori positive in case at least one test showed positive, overall, the prevalence of H. pylori infection in Myanmar was 48.0% (121/252). Figure 1 shows the prevalence of H. pylori infection according to various range age groups. There was no statistical difference in the positive rate with age (P = 0.31). Even in younger age group, the prevalence of H. pylori infection was more than 40%. There was no difference of H. pylori infection rate between male and female (P = 0.43). The prevalence of H. pylori infection differed among the 2 cities. The prevalence of H. pylori infection in Yangon was 41.9% (13/31) at ≤ 29 years old, 62.2% (28/45) at 30-39 years old, 55.8% (24/43) at 40-49 years old, 51.2% (21/41) at 50-59 years old, and 40.9% (9/22) at ≥ 60 years old. On the other hand, the prevalence of H. pylori infection in Mandalay was 41.7% (5/12) at ≤ 29 years old, 45.0% (9/20) at 30-39 years old, 15.4% (2/13) at 40-49 years old, 50.0% (7/14) at 50-59 years old, and

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Gastric mucosal atrophy and PG in Myanmar PG Ⅱ was significantly higher in H. pylori-positive than -negative subjects (P < 0.001); whereas there was no

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examined the correlations between the severity of gastric mucosal atrophy and PGs (Table 3). In case of the antrum, PG Ⅰ and PG Ⅱ were significantly correlated with the severity of atrophy (r = 0.13, P = 0.03 for PG Ⅰ, r = 0.34, P < 0.001 for PG Ⅱ). On the other hand, PG Ⅰ/ Ⅱ was significantly inversely correlated with the severity of atrophy (r = -0.34, P < 0.001). In case of the corpus, there was no correlation between PG Ⅰ and the severity of atrophy. PG Ⅱ were also significantly correlated with the severity of atrophy in the corpus (r = 0.22, P < 0.001). PG Ⅰ/Ⅱ was also significantly inversely correlated with the severity of atrophy in the corpus (r = -0.37, P < 0.001). The correlation between OLGA score and the severity of atrophy was also examined. PG Ⅱ were significantly correlated with the OLGA score (r = 0.35, P < 0.001). PG Ⅰ/Ⅱ was significantly inversely correlated with OLGA score (r = -0.39, P < 0.001). There was no correlation between PG Ⅰ and the OLGA score. When we used the cut-off value of PG Ⅰ/Ⅱ as ≤ 3.0 for more than stage Ⅰ in the OLGA score, sensitivity and specificity were 8.3%, 99.0%, respectively. In case more than stage Ⅱ in the OLGA score, they were 18.1% and 95.4%, respectively. Therefore, we calculated the best cut-off value of PG Ⅰ/Ⅱ from ROC curve. For more than stage Ⅰ in OLGA score, the best cut-off value of PG Ⅰ/Ⅱ was 6.25 (sensitivity 62.9%, specificity 76.1%) [area under the ROC was 0.720 (95%CI: 0.657-0.782)]. For more than stage Ⅱ in OLGA score, the best cut-off value of PG Ⅰ/Ⅱ was 5.35 (sensitivity 81.8%, specificity 67.2%) [area under the ROC was 0.750 (95% CI: 0.610-0.889)].

Table 2 Differences of histological scores according to the status of Helicobacter pylori infection

n Age Male PG Ⅰ PG Ⅱ PG Ⅰ/Ⅱ PG-positive Antrum Activity Inflammation Atrophy Intestinal metaplasia Corpus Activity Inflammation Atrophy Intestinal metaplasia OLGA score

H. pylori (+)

H. pylori (-)

P value

121 42.5 ± 13.1 50 86.9 ± 72.0 17.3 ± 11.6 5.3 ± 2.0 8

131 44.7 ± 15.2 47 75.8 ± 77.0 9.8 ± 10.4 8.1 ± 2.6 4

0.22 0.37 0.006 < 0.001 < 0.001 0.18

1.22 ± 0.82 1.53 ± 0.65 0.78 ± 0.52 0.19 ± 0.59

0.08 ± 0.26 0.50 ± 0.54 0.39 ± 0.50 0.05 ± 0.31

< 0.0001 < 0.0001 < 0.0001 0.02

0.74 ± 0.65 0.99 ± 0.63 0.25 ± 0.50 0.04 ± 0.32 0.84 ± 0.56

0.08 ± 0.29 0.15 ± 0.42 0.05 ± 0.25 0.04 ± 0.28 0.40 ± 0.52

< 0.0001 < 0.0001 < 0.0001 0.72 < 0.0001

OLGA: Operative link on gastritis assessment; H. pylori: Helicobacter pylori; PG: Pepsinogen.

Table 3 Levels of PG Ⅰ, PG (mean ± SD)

Antrum

Corpus

OLGA

Ⅱ,

and PG Ⅰ/Ⅱ in atrophic gastritis

Grade

n

PG Ⅰ

PG Ⅱ

PG Ⅰ/Ⅱ

0 1 2 3 0 1 2 3 0

114 131 7 0 220 27 5 0 109 132 10 1 0

76.2 ± 82.0 85.1 ± 68.9 87.7 ± 57.4 NA 82.3 ± 77.1 65.4 ± 40.5 114.0 ± 105.1 NA 77.2 ± 83.6 82.6 ± 66.3 104.8 ± 84.1 67.8 NA

10.2 ± 10.2 15.7 ± 12.0 20.9 ± 14.6 NA 12.6 ± 11.4 17.6 ± 9.6 23.9 ± 22.0 NA 10.1 ± 10.3 15.3 ± 11.2 24.8 ± 17.7 8.7 NA

7.7 ± 2.4 6.0 ± 2.7 4.9 ± 2.2 NA 7.1 ± 2.5 4.0 ± 2.2 4.5 ± 2.4 NA 7.8 ± 2.3 6.0 ± 2.7 4.1 ± 1.8 7.8 NA

Ⅰ Ⅱ Ⅲ Ⅳ

DISCUSSION We revealed that the prevalence of H. pylori in patients with dyspeptic symptoms in Myanmar was 48.0% by different 5 tests. In contrast to developed countries, H. pylori infections occur earlier in life and with a higher frequency in the developing world[18]. For example, the prevalence of H. pylori infection was decreasing according to the improvement of sanitary condition[19]. The present study showed that high prevalence of H. pylori infection was detected even in younger age group (41.9% at ≤ 29 years old) in Myanmar. Sanitary conditions such as a full equipment rate of water and sewage are considered as important factor for H. pylori infection[18]. The percentage of improved sanitation facilities in 2011 was still 77% in Myanmar (UNICEF, http://www.unicef. org/), which might be the reason for constant infection rate in every age group. The improvement of sanitary condition might be decreased H. pylori infection rate in Myanmar in the future. In addition, we found that higher prevalence of H. pylori infection was found in the largest city, Yangon compared with the second largest city, Mandalay. The percentage of usage of pit latrine is higher in Mandalay than in Yangon (Myanmar Multiple Indicator Cluster Survey 2009-2010, UNICEF, http:// www.unicef.org/myanmar). In addition, drinking water

OLGA: Operative link on gastritis assessment; PG: Pepsinogen.

difference of PG Ⅰ among two group (Table 2). On the other hand, PG Ⅰ/Ⅱ was significantly lower in H. pyloripositive than -negative subjects (P < 0.001). When PGpositive was defined as the cutoff of PG Ⅰ levels ≤ 70 ng/mL and a PG Ⅰ/Ⅱ ratio ≤ 3.0, the percentage of PG-positive was higher in H. pylori-positive subjects [6.6% (8/121)] than that of H. pylori-negative subjects [3.0% (4/131)] although it did not reach the statistical significance (P = 0.18). The overall prevalence of the PG-positive was only 4.7% (12/252). PG-positive was also significantly correlated with the presence of atrophy (P = 0.012). Among the 12 PG-positive subjects, 11 (91.6%) had atrophy. On the other hand, 132 (55.0%) out of 240 PG-negative subjects showed the presence of atrophy. Therefore, it means that when PG has high positive predictive value for the presence of atrophy; however it show high false-negative rate. Next, we

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sources is more improved in Yangon than in Mandalay (http://www.unicef.org/myanmar). Therefore, it is difficult to explain the difference of H. pylori infection rate by the differences of sanitary condition. Unidentified genetic or host factors may result in them being less susceptible to H. pylori infection[20]. We found that 54.7% had mucosal atrophy in the antrum, and 12.6% subjects also had gastric mucosal atrophy in the corpus when samples of grade 1 or more were considered atrophy-positive. We previously reported that gastric mucosal atrophy was found in 91.9% in the antrum and 37.7% in the corpus in Bhutan where the incidence of gastric cancer is high (17.2 cases per 100000 population per year)[21]. Our study showed that another staging of gastritis (OLGA system) showed that most of case was stage 0-Ⅱ in Myanmar. Only one subject showed stage Ⅲ and none had stage Ⅳ. On the other hand, stage Ⅲ and Ⅳ were found in approximately 40% in Japan where the incidence of gastric cancer is quite high[22]. Furthermore, although it was significantly higher in H. pylori-positive than that of -negative subjects, the score of intestinal metaplasia in the antrum was lower in Myanmar than that of Japan (0.19 ± 0.59 in Myanmar, 0.50 ± 0.07 in Japan)[23]. Milder gastritis might be related with a moderate incidence of gastric cancer in Myanmar in spite of high H. pylori infection rate. In this study, when PG-positive was defined as the cutoff of PG Ⅰ levels ≤ 70 ng/mL and a PG Ⅰ/Ⅱ ratio ≤ 3.0, 55.0% of PG-negative subjects showed the presence of atrophy in Myanmar. Therefore, PG show high false-negative rate in Myanmar. The serum PG level can be affected by the ethnic background. In fact, the prevalence of low PG levels was the highest in the Indian compared to the Chinese and Malay populations even after adjustment for gender and H. pylori prevalence [24]. This showed that the serum PG criterion cannot be used in the Indian population for gastric cancer screening[25]. Other factors, such as age, gender, height, body weight, body surface area, smoking, and drinking habits, might be related to PG Ⅰ and PG [26] Ⅱ levels . Therefore, different cutoff values used in different studies might affect the sensitivity and specificity of the results[27,28]. For example, in the Chinese population, the cutoff values for PG Ⅰ and the PG Ⅰ /Ⅱ ratio used for the effective detection of atrophic gastritis were 82.3 ng/mL and 6.05, respectively[29]. In our study, we could not find any significant correlation between PG Ⅰ and gastric mucosal atrophy in the corpus. On the other hand, PG Ⅰ/Ⅱ was significantly inversely correlated with the severity of atrophy both in the antrum and corpus. We found that the best cutoff value of PG Ⅰ/Ⅱ for more than stage Ⅰ in OLGA score was 6.25 (sensitivity 62.9%, specificity 76.1%), and 5.35 (sensitivity 81.8%, specificity 67.2%) for more than stage Ⅱ in OLGA score. Future studies are needed to define the optimal PG cutoff values for gastric cancer screening in Myanmar. The difference of the incidence of gastric cancer

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between China, Myanmar, India, and Thailand might be explain the difference of virulence factors of H. pylori in addition to the host factor and diet. Indeed, virulence factors of H. pylori have been revealed to be the predictors of gastric atrophy, intestinal metaplasia and severe clinical outcomes[4]. For example, CagA is the most studied virulence factor of H. pylori[4]. Western-type CagA is predominant in India, on the other hand, EastAsian-type CagA is predominant in China. It has been reported that East-Asian-type CagA strains are more virulent than Western-type CagA[4]. VacA is the second most extensively studied H. pylori virulence factor[30]. vacA s1 or m1 H. pylori strains have an increased risk of peptic ulcer or gastric cancer compared with those with s2 or m2 strains[30]. The prevalence of vacA m1 genotype was 73% in Thailand and approximately 60% in India[5,7,31]. Interestingly, recent study revealed that although CagA was translocated into a host cell, it did not persist for a long period by autophagy in response to vacA m1 but not m2[32]. On the other hand, the CagA expression was persisted in the CD44v9-expressing human gastric cancer cells[32]. A study to investigate virulence factors of H. pylori strains in Myanmar is now in progress. The genetic diversity of H. pylori strains in addition to environmental and host factors might be associated with the difference of the incidence of gastric cancer in Myanmar. Another important finding was that the prevalence of H. pylori in patients with peptic ulcer was significantly higher than that of gastritis which consistent with previous reports[33-35]. This suggests that H. pylori infection can be a risk factor for the development of peptic ulcer even in Myanmar. Furthermore, histological scores were higher in H. pylori-positive subjects than negative subjects consistent with other report[23]. Therefore, eradication therapy for H. pylori infection can be contributed to the decreasing peptic ulcer in Myanmar. However, our study includes several limitations. We obtained the samples from the patients living in Yangon and Mandalay which are the largest and the second largest cities in Myanmar. In general, the prevalence of H. pylori infection is higher in country sides than that of cities due to the difference of environmental factors including sanitary condition[18]. Therefore, our results cannot be generalized in Myanmar. In addition, we included only the patients with dyspeptic symptoms but not general population. The percentage of female was also higher than that of male although there was no difference of H. pylori infection rate between male and female. In general, the dyspeptic symptom is more common in female than in male [36]. In addition, we used the ELISA kit manufactured by Eiken Company in Japan for serology. It based on a Japanese H. pylori strain for the detection of H. pylori infection[37,38]. H. pylori antibody titers varied greatly depending on the test kit used[13,39]. It might be preferable to develop a domestic ELISA kit using H. pylori strains obtained in Myanmar for future studies. In conclusion, the prevalence of H. pylori infection

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in patients with dyspeptic symptoms in Myanmar was high in spite of moderate incidence of gastric cancer. On the other hand, most cases had mild gastritis. Strains isolated from Myanmar might be less virulent than those of East-Asian countries, but more virulent than those of India and Thailand. Furthermore, the presence of H. pylori was related with peptic ulcer and gastritis. Therefore, eradication therapy of H. pylori can contribute to decrease H. pylori-related diseases such as peptic ulcer and gastric cancer.

Azuma T, Nair GB, Berg DE. Distinctiveness of genotypes of Helicobacter pylori in Calcutta, India. J Bacteriol 2000; 182: 3219-3227 [PMID: 10809703] Yamaoka Y, Orito E, Mizokami M, Gutierrez O, Saitou N, 6 Kodama T, Osato MS, Kim JG, Ramirez FC, Mahachai V, Graham DY. Helicobacter pylori in North and South America before Columbus. FEBS Lett 2002; 517: 180-184 [PMID: 12062433 DOI: 10.1016/S0014-5793(02)02617-0] Vilaichone RK, Mahachai V, Tumwasorn S, Wu JY, Graham 7 DY, Yamaoka Y. Molecular epidemiology and outcome of Helicobacter pylori infection in Thailand: a cultural cross roads. Helicobacter 2004; 9: 453-459 [PMID: 15361085 DOI: 10.1111/j.1083-4389.2004.00260.x] Ferlay J, Shin HR, Bray F, Forman D, Mathers C, Parkin 8 DM. Estimates of worldwide burden of cancer in 2008: GLOBOCAN 2008. Int J Cancer 2010; 127: 2893-2917 [PMID: 21351269 DOI: 10.1002/ijc.25516] Suzuki R, Shiota S, Yamaoka Y. Molecular epidemiology, 9 population genetics, and pathogenic role of Helicobacter pylori. Infect Genet Evol 2012; 12: 203-213 [PMID: 22197766 DOI: 10.1016/j.meegid.2011.12.002] 10 Sipponen P, Graham DY. Importance of atrophic gastritis in diagnostics and prevention of gastric cancer: application of plasma biomarkers. Scand J Gastroenterol 2007; 42: 2-10 [PMID: 17190755 DOI: 10.1080/00365520600863720] 11 Miki K. Gastric cancer screening using the serum pepsinogen test method. Gastric Cancer 2006; 9: 245-253 [PMID: 17235625 DOI: 10.1007/s10120-006-0397-0] 12 Dixon MF, Genta RM, Yardley JH, Correa P. Classification and grading of gastritis. The updated Sydney System. International Workshop on the Histopathology of Gastritis, Houston 1994. Am J Surg Pathol 1996; 20: 1161-1181 [PMID: 8827022] 13 Miki K. Gastric cancer screening by combined assay for serum anti-Helicobacter pylori IgG antibody and serum pepsinogen levels - “ABC method”. Proc Jpn Acad Ser B Phys Biol Sci 2011; 87: 405-414 [PMID: 21785258] 14 Uchida T, Kanada R, Tsukamoto Y, Hijiya N, Matsuura K, Yano S, Yokoyama S, Kishida T, Kodama M, Murakami K, Fujioka T, Moriyama M. Immunohistochemical diagnosis of the cagA-gene genotype of Helicobacter pylori with anti-East Asian CagA-specific antibody. Cancer Sci 2007; 98: 521-528 [PMID: 17284255 DOI: 10.1111/j.1349-7006.2007.00415.x] 15 Bornschein J, Selgrad M, Wex T, Kuester D, Malfertheiner P. Serological assessment of gastric mucosal atrophy in gastric cancer. BMC Gastroenterol 2012; 12: 10 [PMID: 22289789 DOI: 10.1186/1471-230X-12-10] 16 Rugge M, Genta RM. Staging gastritis: an international proposal. Gastroenterology 2005; 129: 1807-1808 [PMID: 16285989 DOI: 10.1053/j.gastro.2005.09.056] 17 Rugge M, Meggio A, Pennelli G, Piscioli F, Giacomelli L, De Pretis G, Graham DY. Gastritis staging in clinical practice: the OLGA staging system. Gut 2007; 56: 631-636 [PMID: 17142647 DOI: 10.1136/gut.2006.106666] 18 Goh KL, Chan WK, Shiota S, Yamaoka Y. Epidemiology of Helicobacter pylori infection and public health implications. Helicobacter 2011; 16 Suppl 1: 1-9 [PMID: 21896079 DOI: 10.1111/j.1523-5378.2011.00874.x] 19 Shiota S, Murakawi K, Suzuki R, Fujioka T, Yamaoka Y. Helicobacter pylori infection in Japan. Expert Rev Gastroenterol Hepatol 2013; 7: 35-40 [PMID: 23265147 DOI: 10.1586/ egh.12.67] 20 Lee YY, Mahendra Raj S, Graham DY. Helicobacter pylori infection--a boon or a bane: lessons from studies in a lowprevalence population. Helicobacter 2013; 18: 338-346 [PMID: 23607896 DOI: 10.1111/hel.12058] 21 Shiota S, Mahachai V, Vilaichone RK, Ratanachu-ek T, Tshering L, Uchida T, Matsunari O, Yamaoka Y. Seroprevalence of Helicobacter pylori infection and gastric mucosal atrophy in Bhutan, a country with a high prevalence of gastric cancer.

ACKNOWLEDGMENTS We thank Ms. Yoko Kudo for excellent technical assistance.

COMMENTS COMMENTS Background

The age-standardized incidence rate of gastric cancer in Myanmar was reported to be 11.2/100000 per year, which is higher than that of India and Thailand, and lower than that of China (6.1, 3.1 and 22.7/100000, respectively). Although the Helicobacter pylori (H. pylori) infection is the most important factor for the development of gastric cancer, the prevalence of H. pylori infection in Myanmar have not been elucidated.

Research frontiers

To understand the reason for higher incidence of gastric cancer in Myanmar than India or Thailand, it is important to elucidate of H. pylori infection rate in Myanmar. Furthermore, the gastric cancer risk can be assessed by the status of gastric atrophy. Not only endoscopic and histological examination but also the measurements of serum pepsinogen (PG) Ⅰ and PG Ⅰ/Ⅱ levels can be available to examine the status of gastric mucosal atrophy. However, the proper cut-off value can be various according to the geographic difference.

Innovations and breakthroughs

The prevalence of H. pylori infection in patients with dyspeptic symptoms in Myanmar was high in spite of moderate incidence of gastric cancer. On the other hand, most cases had mild gastritis. Strains isolated from Myanmar might be less virulent than those of East-Asian countries, but more virulent than those of India and Thailand. Furthermore, the presence of H. pylori was related with peptic ulcer and gastritis.

Applications

Eradication therapy of H. pylori can contribute to decrease H. pylori-related diseases such as peptic ulcer and gastric cancer.

Peer review

In this manuscript the authors evaluate the relation between H. pylori infection and atrophic gastritis in a Myanmar population. In agreement to literature data the study found a significant relation between two variables. The paper appears of clinical interest because these results are not previously reported in these geographic area.

REFERENCES 1 2 3 4 5

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P- Reviewer: Baik GH, De Francesco V, Gasbarrini H, Hagen SJ S- Editor: Ma N L- Editor: A E- Editor: Liu XM

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Prevalence of Helicobacter pylori infection and atrophic gastritis in patients with dyspeptic symptoms in Myanmar.

To survey the detailed analyses for Helicobacter pylori (H. pylori) infection and gastric mucosal status in Myanmar...
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